Background: The tuberculin skin test (TST) was the mainstay for detecting latent TB infection (LTBI). Over the past decade, commercial tests based on T-cell assays and interferon-gamma-release assays (IGRAs) have been developed for diagnosing LTBI. IGRAs evaluate IFN-γ responses to the tuberculosis-specific antigens and would not be affected by BCG vaccination and most NTM exposure. A positive IGRA result was reported to be more strongly associated with degree of TB exposure than TST, but the findings in low prevalence countries are inconsistent with the studies in low-and intermediate prevalence countries. So far the majority of IGRAs studies have been restricted to TB patients, TB contacts or high risk groups for TB. Therefore, the performance of IGRAs in general population is still limited. Aims: Based on the performance of IGRA and TST in general population in a country with intermediate TB burden, we evaluated their operational characteristics, the yieled of the combination of TST and IGRA to detect LTBI and then explore the possibility of using TST result as a predictor for IGRA. Materials and methods: A community-based study was conducted in Changhua city in May 2011. The study subjects from the attendee of Changhua community-based integrated screen (CHCIS) were evaluated with a clinical and physical examination and underwent both QFT-GIT and TST. Subject’s information was collected by questionnaire including demographic characteristics, underlying disease, family disease history, prior TB history, and TB contact history. Our analysis consists of three major parts: we gave the results of descriptive analysis and then we used various cutoff of TST, age groups and BCG vaccination groups to compare agreement between TST and QFT-GIT. The second part was to use the operational characteristics of TST to estimate the sensitivity and specificity of QFT-GIT for LTBI. We compare expected prevalence of TB by annual risk of TB infection with prevalence of TB based on the estimated sensitivity and specificity of QFT-GIT. Given QFT-GIT as a proxy indicator of TB disease progression, we explore the possibility of using TST to predict the result of QFT-GIT. By assuming the clinical scores, as estimated from logistic regression, followed normal distribution, we applied Bayesian approach to estimate probability density function of the scores. Based on the function, we set up the upper limit and the lower limit of the scores.If the scores are within the area between the lower and the upper limit, QFT-GIT testings are in need, otherwise not. We also using likelihood ratio to estimate posterior probability by various condition and clinical scores. Results: Of 492 subjects who underwent QFT-GIT and TST, the positive rate of QFT-GIT (≥0.35IU/ml) was 10.6% (52/492), the positive rate of TST (cutoff ≥10mm.) was 55.1% (271/492). The overall level of agreement and Kappa(κ) between QFT-GIT and TST (cutoff≥10mm) was very low (50.2 %, κ=0.08).The agreement between two tests in various BCG vaccination groups was as follows: group 1 (aged ≤36 years), 43.8%,κ=0.00;group 2 (aged 37-47 years): 40.0%,κ=-0.03;group 3 (aged 48-67 years), 55.2%, κ=0.13;group 4(aged >67 years): 58.3%, κ=0.22. The result showed that agreement between two tests was affected by age, cutoff of TST and chronic disease history rather than BCG vaccination history. Sensitivity of the QFT-GIT using the operational characteristics of TST for detecting LTBI was only 5%-43%, but specificity was ranged from 95% to 99%.The score function resuling from logistic regression was:Score=0.58×TST+0.20×Age +0.03×Sex. The upper limit and the lower limit were set up at 3 and 1.12 with a false positive rate of 5.8% and a false negative rate of 5% respectively. Those younger than 55 with the induration size of TST <5mm and those younger than 40 with the induration<10mm were among the group lower than the lower limit.On the other hand, The people older than 60 with the induration size ≥15mm were among the group higher than the upper limit. The sensitivity, false negative rate, specificity and false positive rate of the model were 76.9%, 23.1%, 70.3%, 29.7%, respectively. Conclusion: Agreement between TST and IGRA was highly dependent on age and might not be affected by BCG vaccination history. IGRA was low sensitivity but high specificity tool for detecting LTBI. Using the score function, based on the age, sex and the induration sizes of TST, to identify those need QFT-GIT testing could help decrease the number needed to be testing by 21%. The above findings provide valuable information for the decision making of screening and treating LTBI.